CN103133226A - Power generation system with wind gathering power generation and ocean current power generation integrated into one - Google Patents
Power generation system with wind gathering power generation and ocean current power generation integrated into one Download PDFInfo
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- CN103133226A CN103133226A CN2013100831443A CN201310083144A CN103133226A CN 103133226 A CN103133226 A CN 103133226A CN 2013100831443 A CN2013100831443 A CN 2013100831443A CN 201310083144 A CN201310083144 A CN 201310083144A CN 103133226 A CN103133226 A CN 103133226A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/20—Hydro energy
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
- Y02E10/72—Wind turbines with rotation axis in wind direction
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
- Y02E10/727—Offshore wind turbines
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Abstract
The invention discloses a power generation system with wind gathering power generation and ocean current power generation integrated into one. The power generation system comprises a floating body, wherein a wind gathering power generation unit and an ocean current power generation unit are arranged on the floating body. The floating body is a ship-shaped cavity, and the ocean current power generation unit is placed in the floating body. The ocean current power generation unit includes an ocean current inlet and a wake current outlet, wherein the ocean current inlet and the wake current outlet are formed at two ends of the floating body, and an ocean current speeding-up pipeline is connected between the ocean current inlet and the wake current outlet. A conflux bucket is arranged at the position of the ocean current inlet. An air compressor, a power transmission and transformation device, a water turbine and a motor are arranged in a float above the ocean current speeding-up pipeline. A leading-out terminal of the motor is connected with the power transmission and transformation device by means of a cable. A water bucket of the water turbine extends into the ocean current speeding-up pipeline. A floating cabin is arranged in the floating body below the ocean current speeding-up pipeline. The wind gathering power generation unit includes a tower body, and a wind gathering head is arranged at the upper end of the tower body. A wind gathering pipeline is arranged in the tower body. A draught fan and a motor are arranged at the lower end of the wind gathering pipeline. A leading-out terminal of the motor is connected with the power transmission and transformation device by means of the cable. The power generation system with the wind gathering power generation and the ocean current power generation integrated into one has the advantages of being easy to construct and low in construction cost.
Description
Technical field
The present invention relates to a kind of electricity generating device.Specifically, be the floating type power generation system that to utilize waterpower to generate electricity, can utilize again wind-force to generate electricity.
Background technique
No. 201110429077.7 applications for a patent for invention of China disclose a kind of wind-force and waterpower comprehensive generating system.This wind-force and waterpower comprehensive generating system comprise generator and are arranged on sea bed and stretch out the pylon on sea.Described pylon contains column, and its top is equipped with wind blade and the first driving mechanism, and it is on that section column in seawater turbine blade and the second driving mechanism are installed.Automatic transmission case also is installed on pylon and has two differentiators of inputting semiaxis.The output shaft of the first driving mechanism is connected with the first semiaxis of differentiator by automatic transmission case, and the output shaft of the second driving mechanism is connected with the second semiaxis of differentiator, and the output shaft of differentiator is connected with the input shaft of generator.This system integrates wind-power electricity generation and ocean current power generation, compares with single ocean current power generation system with single wind-power electricity generation, can improve the generated output of separate unit generator.But there is following problem: the one, because this power generation system comprises pylon with column, during construction, need to drive piles in the seabed erection tower and column, construct more difficult.The 2nd, it is waterborne and under water that the wind blade of this power generation system and turbine blade are exposed to respectively, and without wind gathering mechanism and conflux mechanism, and it is slower without the wind speed of the natural wind that gathers processing, specific power without the ocean current that gathers is less, want to improve the generated energy of separate unit power generation system, just must do wind blade and turbine blade very large.And wind blade and turbine blade one are large, constructional difficulties not only, and safety coefficient is low, and can greatly improve construction cost.Therefore, the construction cost of this wind-force and waterpower comprehensive generating system is higher.
Summary of the invention
The problem to be solved in the present invention is to provide a kind of wind generating and ocean current power generation of gathering in the power generation system of one.This power generation system, not only construction is easier, and construction cost is low.
For addressing the above problem, take following technological scheme:
Of the present inventionly gather wind generating and ocean current power generation in the power generation system characteristics of one is, comprise float, wind power generation unit and ocean current power generation unit are arranged on float.Described float is the ship shape cavity, and described ocean current power generation unit is in float.Described ocean current power generation unit comprises ocean current entrance and the wake flow outlet that is in the float two ends, is connected with ocean current speedup pipeline between ocean current entrance and wake flow outlet.There is the conflux bucket described ocean current ingress, and the outer end of this conflux bucket and inner end are rectangular and its bore diminishes to the inner end gradually from its outer end.The bore of described ocean current speedup pipeline is rectangular, and it is identical with the conflux bucket with the port footpath that the conflux bucket is connected, and the bore of ocean current speedup pipeline becomes large gradually from its end to end that is connected with the conflux bucket.In the floating of ocean current speedup pipeline top, air compressor, power transmission and transformation device, water turbine and motor are arranged, the Out let of motor is connected with the power transmission and transformation device by cable.The output shaft of motor is connected with the output shaft of water turbine.Described water turbine and motor have two covers at least, and these water turbine and motor are along vertical layout of conflux pipeline.Described water turbine contains cylindrical case, and this cylindrical case is closed shape, and vertical side processing of cylindrical case connects the opening of its length.On ocean current speedup pipeline upper wall, opening is arranged, be the sealing shape between the opening surrounding on this opening surrounding and described cylindrical case and link together.The air outlet of air compressor is connected by the inner chamber top of pipeline and cylindrical case.Being provided with rotating shaft in described cylindrical case, matches with center hole on the cylindrical case two end plates respectively by bearing in rotating shaft two ends.The rotating shaft surrounding is evenly equipped with four row connecting rods, the connecting rod inner end is fixed in rotating shaft, and the outer end of every row connecting rod is fixed with a bucket, and when making bucket go to contiguous ocean current inlet side, the oral area of bucket or forward consists of described water turbine by cylindrical case, rotating shaft, connecting rod and bucket up.
Described bucket stretches in ocean current speedup pipeline by the opening on the opening on cylindrical case and ocean current speedup pipeline, and makes the vertically perpendicular of the rotating shaft of water turbine and ocean current speedup pipeline.In float under ocean current speedup pipeline, buoyancy tank is arranged, valve is arranged on buoyancy tank.Described buoyancy tank is connected with the air outlet of air compressor by pipeline.
Described wind power generation unit comprises tower body, and there is the wind gathering head tower body upper end, and the entrance point of described wind gathering head is vertical with the outlet end center line, is rotatable shape between the outlet end of wind gathering head and tower body upper end and coordinates.The wind gathering pipeline is arranged in tower body, and wind gathering pipeline upper end diminishes gradually to the bore of lower end, links together between wind gathering pipeline upper end bore and surrounding both identical with tower body upper end bore.The wind gathering lower end of duct has blower fan and motor, and the intake grill of described blower fan is connected with the wind gathering lower end of duct.The rotating shaft of blower fan is connected with the rotating shaft of motor, and the Out let of motor is connected with the power transmission and transformation device by cable.Described blower fan and motor are in the float of tower body below.On the float sidewall, exhaust port is arranged, this exhaust port is communicated with the exhaust outlet of blower fan by pipeline.
The further improvement of the present invention scheme is, on the deck of described float, capstan winch arranged, and is wound with cable on capstan winch, and cable one end is connected on capstan winch, and the other end is connected with anchor.
The further improvement of the present invention scheme is on the deck of described float, the aircraft parking to be arranged.
The further improvement of the present invention scheme is on the deck of described float, hoist to be arranged.
Further improvement project of the present invention is that the outer end of described conflux bucket and wake flow outlet have respectively the first filter screen and the second filter screen.
Take such scheme, have the following advantages:
Can be found out by such scheme, owing to the present invention includes float, wind power generation unit and ocean current power generation unit, wind power generation unit and ocean current power generation unit are arranged on respectively the top and the bottom of float, compare with background technique, do not need pylon and column, saved the trouble of driving piles erection tower and column in the seabed, construction is got up than being easier to.
Again because described float is the ship shape cavity, described ocean current power generation unit is in float.Described ocean current power generation unit comprises ocean current entrance and the wake flow outlet that is in the float two ends, is connected with ocean current speedup pipeline between ocean current entrance and wake flow outlet.There is the conflux bucket described ocean current ingress, and the outer end of this conflux bucket and inner end are rectangular and its bore diminishes to the inner end gradually from its outer end.The bore of described ocean current speedup pipeline is rectangular, and it is identical with the conflux bucket with the port footpath that the conflux bucket is connected, and the bore of ocean current speedup pipeline becomes large gradually from its end to end that is connected with the conflux bucket.Described water turbine contains cylindrical case, and this cylindrical case is closed shape, and vertical side processing of cylindrical case connects the opening of its length.On ocean current speedup pipeline upper wall, opening is arranged, be the sealing shape between the opening surrounding on this opening surrounding and described cylindrical case and link together.During work, ocean current gathers the rear ocean current speedup pipeline that really enters by the conflux bucket to carry out just entering bucket after high speedup, make the ocean current speed that enters bucket greatly improve, the specific power of ocean current is larger, compare with background technique, need not increase the blade dimensions of water turbine, just can greatly improve the generated energy of separate unit power generation system.And the blade one of water turbine is little, not only can reduce difficulty of construction, also can greatly reduce construction cost.Therefore, the construction cost of this each power generation system is lower.
On the other hand, because described wind power generation unit comprises tower body, there is the wind gathering head tower body upper end, and the entrance point of described wind gathering head is vertical with the outlet end center line, is rotatable shape between the outlet end of wind gathering head and tower body upper end and coordinates.The wind gathering pipeline is arranged in tower body, and wind gathering pipeline upper end diminishes gradually to the bore of lower end, links together between wind gathering pipeline upper end bore and surrounding both identical with tower body upper end bore.Compare with background technique, by wind gathering head and wind gathering pipeline, greatly improved wind speed and pressure, take full advantage of pressure energy and promote blower fan as power and generate electricity, thereby can dwindle the blade of blower fan, greatly reduce construction cost.
In float due to ocean current speedup pipeline top, air compressor and pressure chamber are arranged again, be to send pressurized air or bleed off pressurized air in pressure chamber in float by air compressor, can make float sink and and floating, not only can make the conflux bucket aim at the ocean current center, also be convenient to transition.
Description of drawings
Fig. 1 is that wind generating and the ocean current power generation of gathering of the present invention is in the power generation system structure schematic diagram of one.
Embodiment
As shown in Figure 1, of the present inventionly gather wind generating and ocean current power generation comprises float 14 in the power generation system of one, described float 14 is the ship shape cavity, is provided with wind power generation unit and ocean current power generation unit on float 14, and ocean current power generation unit wherein is in float 14.Described ocean current power generation unit comprises ocean current entrance and the wake flow outlet that is in float two ends, the ocean current entrance be connected by ocean current speedup pipeline 24 between wake flow exports.Described ocean current ingress is connected with conflux bucket 2, and the outer end of this conflux bucket and inner end are rectangular and its bore diminishes to the inner end gradually from its outer end.The bore of described ocean current speedup pipeline 24 is rectangular, and it is identical with conflux bucket 2 with the port footpath that conflux bucket 2 is connected, and the bore of ocean current speedup pipeline 24 becomes large gradually from its end to end that is connected with conflux bucket 2.In the float 14 of ocean current speedup pipeline 24 tops, power transmission and transformation device 20, water turbine and motor 17 are installed, the Out let of motor 17 is connected with power transmission and transformation device 20 by cable, and the output shaft of motor 17 is connected with the rotating shaft of water turbine 23.Described water turbine contains cylindrical case 18, and this cylindrical case is closed shape, and vertical side of cylindrical case 18 is processed with the opening that connects its length.Be processed with opening on ocean current speedup pipeline 24 upper walls, this opening connects the width of ocean current speedup pipeline 24, is the sealing shape between the opening surrounding on the surrounding of this opening and described cylindrical case 18 and links together.Being processed with center hole on cylindrical case 18 two end plates, being provided with rotating shaft 23 in cylindrical case 18, matches with center hole on cylindrical case 18 two end plates respectively by bearing in rotating shaft 23 two ends.Rotating shaft 23 surroundings are evenly equipped with four row connecting rods 21, connecting rod 21 inner ends are fixed in rotating shaft 23, the outer end of every row connecting rod 21 is fixed with a bucket 22, and when making bucket 22 go to contiguous ocean current inlet side, the oral area of bucket 22 or forward consists of described water turbine by cylindrical case 18, rotating shaft 23, connecting rod 21 and bucket 22 up.When a certain bucket 22 went to the below, this bucket stretched in ocean current speedup pipeline 24 by the opening on cylindrical case 18 and ocean current speedup pipeline 24 and makes the vertically perpendicular of rotating shaft 23 and ocean current speedup pipeline 24.Be provided with seven buoyancy tanks 19 in float 14 under ocean current speedup pipeline 24, these buoyancy tanks 19 are vertically uniform along float 14.On each buoyancy tank 19, valve 25 is installed all.In the float 14 of ocean current speedup pipeline 24 tops, air compressor 16 is installed, the air outlet of air compressor 16 is connected with described buoyancy tank by pipeline, can be in buoyancy tank 19 by air compressor 16 and supplies gas.When needing transition, supply gas in buoyancy tank 19 by air compressor 16, the water in buoyancy tank 19 is discharged, to alleviate weight of the present invention, the present invention is floated, then with towboat, the present invention is dragged to desired zone.Wherein, bring unnecessary resistance for avoiding the too high rotation to bucket 22 of water level in cylindrical case 18, the air outlet of described air compressor 16 is connected by the inner chamber top of pipeline and cylindrical case 18., supplied gas to the top of cylindrical case 18 inner chambers by air compressor 16 during higher than ocean current speedup pipeline 24 when the water level in cylindrical case 18, the water levels in cylindrical case 18 are remained on optimum height.
Described wind power generation unit comprises tower body 12, and tower body 12 upper ends are provided with wind gathering 8, wind meter 11, navigation mark light 10 and lightning conductor 9 etc.The entrance point of wind gathering 8 is vertical with the outlet end center line, is rotatable shape by bearing and motor between the outlet end of wind gathering 8 and tower body 12 upper ends and coordinates.Be provided with the wind gathering pipeline in tower body 12, wind gathering pipeline upper end diminishes gradually to the bore of lower end, links together between wind gathering pipeline upper end bore and surrounding both identical with tower body 12 upper end bores.The wind gathering lower end of duct is provided with blower fan and motor, and the intake grill of described blower fan is connected with the wind gathering lower end of duct.The rotating shaft of blower fan is connected with the rotating shaft of motor, and the Out let of motor is connected with power transmission and transformation device 20 by cable.
Because the ocean current by water turbine still has higher speed, for further improving the utilization ratio of ocean current energy, described water turbine and motor are provided with two covers at least, are two covers in the present embodiment, make first order water turbine offer second level water turbine with the ocean current of crossing again and use.
At sea locate for ease of the present invention, be provided with capstan winch 5 on the deck 13 of described float 14, be wound with cable 4 on capstan winch 5, cable 4 one ends are connected on capstan winch 5, and the other end is connected with anchor 3.
For increasing function of the present invention, be provided with aircraft parking 6 on the deck 13 of described float 14, can park for helicopter.
For further increasing function of the present invention, be provided with hoist 7 on the deck 13 of described float 14.
Described blower fan and motor are in the float 14 of tower body 12 belows.Be processed with exhaust port on the sidewall of float 14, described exhaust port is communicated with the exhaust outlet of blower fan by pipeline.
For preventing that marine organisms and floating debris from entering in water turbine, be separately installed with the first filter screen 1 and the second filter screen 15 at outer end and the described wake flow outlet end of described conflux bucket 2.
Claims (9)
1. gather wind generating and ocean current power generation in the power generation system of one, it is characterized in that comprising float (14), wind power generation unit and ocean current power generation unit are arranged on float (14); Described float (14) is the ship shape cavity, and described ocean current power generation unit is in float (14); Described ocean current power generation unit comprises ocean current entrance and the wake flow outlet that is in float (14) two ends, is connected with ocean current speedup pipeline (24) between ocean current entrance and wake flow outlet; There is conflux bucket (2) described ocean current ingress, and the outer end of this conflux bucket and inner end are rectangular and its bore diminishes to the inner end gradually from its outer end; The bore of described ocean current speedup pipeline (24) is rectangular, and it is identical with conflux bucket (2) with the port footpath that conflux bucket (2) is connected, and the bore of ocean current speedup pipeline (24) becomes large gradually from the end to end that it is connected with conflux bucket (2); In the float (14) of ocean current speedup pipeline (24) top, air compressor (16), power transmission and transformation device (20), water turbine and motor (17) are arranged, the Out let of motor (17) is connected with power transmission and transformation device (20) by cable; The output shaft of motor (17) is connected with the output shaft of water turbine; Described water turbine contains cylindrical case (18), and this cylindrical case is closed shape, and vertical side processing of cylindrical case (18) connects the opening of its length; On ocean current speedup pipeline (24) upper wall, opening is arranged, be the sealing shape between the opening surrounding on this opening surrounding and described cylindrical case (18) and link together; The air outlet of described air compressor (16) is connected by the inner chamber top of pipeline and cylindrical case (18); Being provided with rotating shaft (23) in described cylindrical case (18), matches with center hole on cylindrical case (18) two end plates respectively by bearing in rotating shaft (23) two ends; Rotating shaft (23) surrounding is evenly equipped with at least four row connecting rods (21), connecting rod (21) inner end is fixed in rotating shaft (23), all there is a bucket (22) outer end of every row connecting rod (21), and when making bucket (22) go to contiguous ocean current inlet side, the oral area of bucket (22) or forward consists of described water turbine by cylindrical case (18), rotating shaft (23), connecting rod (21) and bucket (22) up;
Described bucket (22) stretches in ocean current speedup pipeline (24) by the opening on the opening on cylindrical case (18) and ocean current speedup pipeline (24), and the rotating shaft (23) that makes water turbine and ocean current speedup pipeline (24) is vertically perpendicular; In float (14) under ocean current speedup pipeline (24), buoyancy tank (19) is arranged, valve (25) is arranged on buoyancy tank (19); Described buoyancy tank (19) is connected by the air outlet of pipeline with air compressor (16);
Described wind power generation unit comprises tower body (12), and there is wind gathering head (8) tower body (12) upper end, and the entrance point of described wind gathering head (8) is vertical with the outlet end center line, is rotatable shape between the outlet end of wind gathering head (8) and tower body (12) upper end and coordinates; Wind gathering pipeline (26) is arranged in tower body (12), and wind gathering pipeline (26) upper end diminishes gradually to the bore of lower end, links together between wind gathering pipeline (26) upper end bore and surrounding both identical with tower body (12) upper end bore; There are blower fan and motor (27) in wind gathering pipeline (26) lower end, and the intake grill of described blower fan is connected with wind gathering pipeline (26) lower end; The rotating shaft of blower fan is connected with the rotating shaft of motor (27), and the Out let of motor is connected with power transmission and transformation device (20) by cable.
2. wind generating and the ocean current power generation of gathering according to claim 1 in the power generation system of one, is characterized in that described water turbine and motor (17) have two covers at least, and these water turbine and motor (17) are along vertical layout of ocean current speedup pipeline (24).
3. wind generating and the ocean current power generation of gathering according to claim 1 in the power generation system of one, is characterized in that described buoyancy tank (19) has two at least, and these buoyancy tanks (19) are vertically uniform along float (14).
4. wind generating and the ocean current power generation of gathering according to claim 1 is in the power generation system of one, it is characterized in that on the deck of described float (14), capstan winch (5) being arranged, be wound with cable (4) on capstan winch (5), cable (4) one ends are connected on capstan winch (5), and the other end is connected with anchor (3).
5. wind generating and the ocean current power generation of gathering according to claim 1 be in the power generation system of one, and it is characterized in that has aircraft parking (6) on the deck of described float (14).
6. wind generating and the ocean current power generation of gathering according to claim 1 be in the power generation system of one, and it is characterized in that has hoist (7) on the deck of described float (14).
7. wind generating and the ocean current power generation of gathering according to claim 1 be in the power generation system of one, it is characterized in that described blower fan and motor (27) are in float (14) below tower body (12); On float (14) sidewall, exhaust port (28) is arranged, this exhaust port is communicated with the exhaust outlet of blower fan by pipeline.
8. described wind generating and the ocean current power generation of gathering of any one in the power generation system of one, is characterized in that there is the first filter screen (1) outer end of described conflux bucket (2) according to claim 1 ~ 7.
9. wind generating and the ocean current power generation of gathering according to claim 8 in the power generation system of one, is characterized in that described wake flow outlet end has the second filter screen (15).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
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| CN2013100831443A CN103133226A (en) | 2013-03-15 | 2013-03-15 | Power generation system with wind gathering power generation and ocean current power generation integrated into one |
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| Application Number | Priority Date | Filing Date | Title |
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| CN2013100831443A CN103133226A (en) | 2013-03-15 | 2013-03-15 | Power generation system with wind gathering power generation and ocean current power generation integrated into one |
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| CN103133226A true CN103133226A (en) | 2013-06-05 |
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| CN2013100831443A Pending CN103133226A (en) | 2013-03-15 | 2013-03-15 | Power generation system with wind gathering power generation and ocean current power generation integrated into one |
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104847588A (en) * | 2015-04-03 | 2015-08-19 | 李晓明 | Method and device for comprehensively utilizing ocean energy and wind energy for compressing air in centralized mode to generate power |
| CN105244762A (en) * | 2014-11-22 | 2016-01-13 | 巫立斌 | Lightning protection device of offshore power generation platform |
| CN105298716A (en) * | 2014-04-24 | 2016-02-03 | 南通大学 | Multiphase fault-tolerant structure ocean current generator set with high fault operation capacity |
| CN105952573A (en) * | 2016-06-29 | 2016-09-21 | 王祖合 | Smooth-flow pontoon hugging type power generation device |
| CN107387291A (en) * | 2017-09-19 | 2017-11-24 | 浙江海洋大学 | A kind of marine power generation device peculiar to vessel |
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| CN1066712A (en) * | 1991-01-16 | 1992-12-02 | 周彬 | Low-head hydroelectric generating equipment |
| CA2421139A1 (en) * | 2003-03-03 | 2004-09-03 | Gabriel Marinescu | Hydraulic turbine for deep ocean conditions |
| CN201262130Y (en) * | 2008-09-04 | 2009-06-24 | 陈可进 | High-efficiency hydraulic turbine apparatus |
| CN102852728A (en) * | 2012-09-12 | 2013-01-02 | 江苏中蕴风电科技有限公司 | Tower tube type narrow-pipe wind-collecting wind turbine generator |
| CN102852717A (en) * | 2012-09-12 | 2013-01-02 | 江苏中蕴风电科技有限公司 | Wind collector for wind concentration power generation of narrow pipe |
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| CN1066712A (en) * | 1991-01-16 | 1992-12-02 | 周彬 | Low-head hydroelectric generating equipment |
| CA2421139A1 (en) * | 2003-03-03 | 2004-09-03 | Gabriel Marinescu | Hydraulic turbine for deep ocean conditions |
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105298716A (en) * | 2014-04-24 | 2016-02-03 | 南通大学 | Multiphase fault-tolerant structure ocean current generator set with high fault operation capacity |
| CN105244762A (en) * | 2014-11-22 | 2016-01-13 | 巫立斌 | Lightning protection device of offshore power generation platform |
| CN104847588A (en) * | 2015-04-03 | 2015-08-19 | 李晓明 | Method and device for comprehensively utilizing ocean energy and wind energy for compressing air in centralized mode to generate power |
| CN105952573A (en) * | 2016-06-29 | 2016-09-21 | 王祖合 | Smooth-flow pontoon hugging type power generation device |
| CN107387291A (en) * | 2017-09-19 | 2017-11-24 | 浙江海洋大学 | A kind of marine power generation device peculiar to vessel |
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Application publication date: 20130605 |